Disclosed herein includes a safening composition comprising an herbicidally effective amount of (a) at least one phenoxy herbicide, or an agriculturally acceptable salts, esters, and amides thereof; (b) at least one safener from quinolinyloxyacetate family of chemicals, or agriculturally acceptable salts, esters and amides thereof, wherein the weight ratio of the at least one phenoxy herbicide to cloquintocet is from about 500:1 to about 1:1. Herbicidal injury caused by a phenoxy herbicide in wheat and barley is reduced with the use of low rates of cloquintocet.

A wheat variety designated M14C1030, the plants and seeds and plant parts of wheat variety M14C1030, methods for producing a wheat plant produced by crossing the variety M14C1030 with itself or another wheat plant, and hybrid wheat seeds and plants produced by crossing the variety M14C1030 with another wheat line or plant, and the creation of variants by backcrossing, mutagenesis or transformation of variety M14C1030. Methods for producing other wheat varieties or breeding lines derived from wheat variety M14C1030 and wheat varieties or breeding lines produced by those methods are also provided.

A wheat variety designated 6PZRK73B, the plants and seeds of wheat variety 6PZRK73B, methods for producing a wheat plant produced by crossing the variety 6PZRK73B with another wheat plant, and hybrid wheat seeds and plants produced by crossing the variety 6PZRK73B with another wheat line or plant, and the creation of variants by backcrossing, mutagenesis or transformation of variety 6PZRK73B are disclosed. Methods for producing other wheat varieties or breeding lines derived from wheat variety 6PZRK73B and to wheat varieties or breeding lines produced by those methods are also provided.

A wheat variety designated 6PMQL91B, the plants and seeds of wheat variety 6PMQL91B, methods for producing a wheat plant produced by crossing the variety 6PMQL91B with another wheat plant, and hybrid wheat seeds and plants produced by crossing the variety 6PMQL91B with another wheat line or plant, and the creation of variants by backcrossing, mutagenesis or transformation of variety 6PMQL91B are disclosed. Methods for producing other wheat varieties or breeding lines derived from wheat variety 6PMQL91B and to wheat varieties or breeding lines produced by those methods are also provided.

A wheat variety designated 6PCQS35B, the plants and seeds of wheat variety 6PCQS35B, methods for producing a wheat plant produced by crossing the variety 6PCQS35B with another wheat plant, and hybrid wheat seeds and plants produced by crossing the variety 6PCQS35B with another wheat line or plant, and the creation of variants by backcrossing, mutagenesis or transformation of variety 6PCQS35B are disclosed. Methods for producing other wheat varieties or breeding lines derived from wheat variety 6PCQS35B and to wheat varieties or breeding lines produced by those methods are also provided.

A wheat variety designated 6PWBD39B, the plants and seeds of wheat variety 6PWBD39B, methods for producing a wheat plant produced by crossing the variety 6PWBD39B with another wheat plant, and hybrid wheat seeds and plants produced by crossing the variety 6PWBD39B with another wheat line or plant, and the creation of variants by backcrossing, mutagenesis or transformation of variety 6PWBD39B are disclosed. Methods for producing other wheat varieties or breeding lines derived from wheat variety 6PWBD39B and to wheat varieties or breeding lines produced by those methods are also provided.

This invention describes a new method to increase grain yields in any crop plant by modifying pollination to effect an increase in grain yield, a change in grain content or characteristics, a decrease in contamination, or a combination of these attributes. The process involves the intentional delivery of pollen of the male plant at will to designated male-sterile female plants as available either in a preserved pollen bank, or real-time collection from male plants as they become available, in a growth chamber for example. Desired pollen is delivered to fertile females. The delivered pollen.sup.M is in such amounts and fortuitously timed that it preferentially pollinates the females and pollination from neighboring male-fertile plants. The intentional delivery of genetically different pollen will result in increased heterosis and accompanying grain yield increases resulting from increased grain size and the potential to influence grain content and constituents. The invention also permits real-time agronomic decision making in order to maximize grain yield by overcoming biotic and abiotic challenges in the growing season which may or may not have been anticipated.

An isolated nucleic acid encoding a nucleotide-binding and leucine-rich repeat (NLR) polypeptide including a zinc-finger BED domain, wherein expression of the NLR polypeptide in a plant confers or enhances resistance of the plant to a fungus.

A wheat variety designated 6PUCY79B, the plants and seeds of wheat variety 6PUCY79B, methods for producing a wheat plant produced by crossing the variety 6PUCY79B with another wheat plant, and hybrid wheat seeds and plants produced by crossing the variety 6PUCY79B with another wheat line or plant, and the creation of variants by backcrossing, mutagenesis or transformation of variety 6PUCY79B are disclosed. Methods for producing other wheat varieties or breeding lines derived from wheat variety 6PUCY79B and to wheat varieties or breeding lines produced by those methods are also provided.

The present invention relates to wheat plants comprising a mutation causing an alteration of the amino acid sequence in centromere histone H3 (CENH3), which have the biological activity of a haploid inducer. Further, the present invention provides methods of generating the wheat plants of the present invention and haploid and doubled haploid wheat plants obtainable by crossing the wheat plants of the present invention with wildtype wheat plants.